CN220450173U - Multifunctional experimental instrument for practical training of genetic engineering - Google Patents

Abstract

The utility model provides a multifunctional experimental instrument for practical training of genetic engineering, which comprises a shell, wherein an incubation chamber is arranged in the shell, the incubation chamber is divided into a refrigeration module and a heating module, the refrigeration module comprises a first fan, a heat dissipation block, a refrigeration block and a refrigeration heat transfer energy storage sheet which are sequentially arranged from bottom to top, a fixing sheet is arranged between the refrigeration block and the refrigeration heat transfer energy storage sheet, the refrigeration block and the refrigeration heat transfer energy storage sheet are fixedly connected with the fixing sheet, a bottom air outlet is formed in the shell right below the first fan, and a refrigeration port for cooling a centrifuge tube or a freezing storage tube is formed in the shell right above the refrigeration heat transfer energy storage sheet; the heating module comprises an incubator, a second fan, a heating plate and a heating heat-transfer energy-storage plate which are sequentially arranged from bottom to top, and a temperature sensor is arranged on the heating heat-transfer energy-storage plate. The comprehensive experimental instrument for genetic engineering practical training can be used for microbial cultivation and can also be used for heating or refrigerating a centrifuge tube or a freezing tube.

Description

Multifunctional experimental instrument for practical training of genetic engineering

Technical Field

The utility model belongs to the technical field of genetic engineering, and particularly relates to a multifunctional experimental instrument for practical training of genetic engineering.

Background

In practical training of genetic engineering, various instruments such as an incubator, a metal bath, a counter and the like are required, and the various instruments are mutually independent, so that in the experimental process, not only is the experimental process influenced, but also the space is occupied, and therefore, a multifunctional integrated device capable of carrying out the practical training process of the whole genetic engineering is needed.

Disclosure of Invention

Aiming at the technical problems, the utility model provides a multifunctional experimental instrument for practical training of genetic engineering.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a multifunctional experimental instrument for genetic engineering practical training, includes the casing the inside refrigeration module and the heating module of being equipped with of casing, refrigeration module includes first fan, radiating block, refrigeration piece and the refrigeration heat transfer energy storage piece that sets gradually from bottom to top, first fan is connected with the radiating block can be dismantled, the lower part hoop of refrigeration heat transfer energy storage piece is equipped with the stationary blade, the external diameter of stationary blade is greater than the diameter of the biggest first fan of diameter, the avris of stationary blade can be dismantled with the avris of radiating block and the bottom plate of casing simultaneously and be connected, bottom air outlet has been seted up on the casing that is located under the first fan, set up the refrigeration mouth that is used for centrifuging tube or cryopreservation pipe cooling on the casing that is located directly over the refrigeration heat transfer energy storage piece, be equipped with temperature sensor on the refrigeration heat transfer energy storage piece, be equipped with the holding mouth that is used for holding or cryopreservation pipe that sets up with on the up with refrigeration mouth relatively, first fan discharges the heat that the heat instrument that the heat produced through the mode of convection; the heating module comprises an incubator, a second fan, a heating plate and a heating heat-transfer energy storage plate which are sequentially arranged from bottom to top, wherein the incubator is fixedly connected with a bottom plate of the shell, the second fan is detachably connected with the heating heat-transfer energy storage plate and used for transmitting heat of the heating plate into the incubator, the side of the heating heat-transfer energy storage plate is detachably connected with the upper end face of the incubator, a temperature sensor is arranged on the heating heat-transfer energy storage plate, a heating opening for heating a centrifuge tube or a freezing storage tube is formed in the shell right above the heating heat-transfer energy storage plate, a containing opening which is opposite to the heating opening and used for containing the centrifuge tube or the freezing storage tube is formed in the upper end face of the heating heat-transfer energy storage plate, and an air inlet is formed in the rear side wall of the shell; the refrigerating block, the first fan, the heating plate and the second fan are all electrically connected through wires and provided with a power supply.

Further, a first heat insulation sheet is arranged between the refrigeration heat transfer energy storage sheet and the shell right above the refrigeration heat transfer energy storage sheet, and a through hole which is opposite to the refrigeration opening is formed in the first heat insulation sheet.

Further, a second heat insulation sheet is arranged between the heating heat transfer energy storage sheet and the shell right above the heating heat transfer energy storage sheet, and a through hole which is opposite to the refrigerating opening is formed in the second heat insulation sheet.

Further, a plurality of screw holes are formed in the periphery of the fixing piece, a plurality of hollow fixing columns are arranged on the circumferential side wall of the radiating block, the screw holes are opposite to the hollow fixing columns, and the fixing piece is detachably connected with the hollow fixing columns through screws penetrating through the screw holes.

Further, the multifunctional experimental instrument further comprises a touch module and a touch module, wherein the touch module is used for setting and controlling the temperatures of the incubator, the heating plate and the refrigerating block, and the temperature sensors on the refrigerating heat transfer energy storage plate and the heating heat transfer energy storage plate are electrically connected with a program main board of the touch module.

The multifunctional experimental instrument for practical training of genetic engineering organically integrates various experimental instruments used in genetic engineering experiments, not only can be used for culturing microorganisms, but also can be used for heating or refrigerating a centrifuge tube or a freezing tube.

Drawings

FIG. 1 is a front view of the internal structure of a comprehensive experimental instrument for genetic engineering training according to the present utility model;

FIG. 2 is a perspective view of the internal structure of the comprehensive experimental instrument for genetic engineering training according to the present utility model;

FIG. 3 is a top view of the comprehensive experimental instrument for genetic engineering training according to the present utility model;

FIG. 4 is a bottom view of the comprehensive experimental instrument for genetic engineering training according to the present utility model;

FIG. 5 is a rear view of the comprehensive experimental instrument for genetic engineering training according to the present utility model.

The device comprises a first fan, a 2-radiating block, a 3-refrigerating block, a 4-refrigerating heat transfer energy storage sheet, a 5-fixing sheet, a 6-incubator, a 7-second fan, an 8-heating sheet, a 9-heating heat transfer energy storage sheet, a 10-temperature sensor, an 11-first heat insulation sheet, a 12-second heat insulation sheet, a 13-shell, a 14-containing opening, a 131-bottom air outlet, a 132-refrigerating opening, a 133-heating opening, a 134-air inlet, a 21-hollow fixing column and 51-screw holes.

Description of the embodiments

The utility model will be further described with reference to the accompanying drawings and specific examples.

The multifunctional experimental instrument for practical training of genetic engineering shown in figures 1-5 comprises a shell 13, wherein a refrigeration module, a heating module incubation chamber and a touch module are arranged in the shell 13, the refrigeration module comprises a first fan 1, a heat dissipation block 2, a refrigeration block 3 and a refrigeration heat transfer energy storage sheet 4 which are sequentially arranged from bottom to top, the first fan 1 is detachably connected with the heat dissipation block 2, a fixing sheet 5 is hooped at the lower part of the refrigeration heat transfer energy storage sheet 4, the outer diameter of the fixing sheet 5 is larger than the diameter of the first fan 1 with the largest diameter, a plurality of screw holes 51 are formed in the peripheral side of the fixing sheet 5, a plurality of hollow fixing columns 21 are arranged on the peripheral side wall of the heat dissipation block 2, the screw holes are opposite to the hollow fixing columns 21, the fixing sheet 5 is detachably connected with screws (not shown in the figure) penetrating through the screw holes and the hollow fixing columns 21, a bottom air outlet 131 is formed in a shell 13 right below the first fan 1, a refrigeration opening 132 for cooling a centrifuge tube or a freezing storage tube is formed in the shell 13 right above the refrigeration heat transfer energy storage sheet 4, a temperature sensor 10 is arranged on the refrigeration heat transfer energy storage sheet 4, a containing opening 14 which is arranged opposite to the refrigeration opening 132 and used for containing the centrifuge tube or the freezing storage tube is formed in the upper end face of the refrigeration heat transfer energy storage sheet 4, the first fan 1 discharges heat generated by the heat refrigeration block 3 out of an instrument in a convection manner, a first heat insulation sheet 11 is arranged between the refrigeration heat transfer energy storage sheet 4 and the shell 13 right above the refrigeration heat transfer energy storage sheet, and a through hole which is arranged opposite to the refrigeration opening 132 is formed in the first heat insulation sheet 11;

the heating module comprises an incubator 6, a second fan 7, a heating plate 8 and a heating heat-transfer energy storage plate 9 which are sequentially arranged from bottom to top, wherein the incubator 6 is fixedly connected with a bottom plate of a shell 13, the second fan 7 is detachably connected with the heating heat-transfer energy storage plate 9 and is used for transmitting heat of the heating plate 8 into the incubator 6, the side of the heating heat-transfer energy storage plate 9 is detachably connected with the upper end surface of the incubator 6, a temperature sensor 10 is arranged on the heating heat-transfer energy storage plate 9, a heating port 133 for heating a centrifuge tube or a freezing storage tube is formed in the shell 13 right above the heating heat-transfer energy storage plate 9, a containing port 14 which is arranged opposite to the heating port 133 and used for containing the centrifuge tube or the freezing storage tube is formed in the upper end surface of the heating heat-transfer energy storage plate 9, and an air inlet 134 is formed in the rear side wall of the shell 13; the refrigerating block 3, the first fan 1, the heating plate 8 and the second fan 7 are all electrically connected through wires and provided with a power supply; a second heat insulation sheet 12 is arranged between the heating heat transfer energy storage sheet 9 and the shell 13 positioned right above the heating heat transfer energy storage sheet, and a through hole which is arranged opposite to the refrigerating opening 132 is arranged on the second heat insulation sheet 12;

the touch module is used for setting and controlling the temperatures of the incubator 6, the heating plate 8 and the refrigerating block 3, and the temperature sensors 10 on the refrigerating heat transfer energy storage plate 4 and the heating heat transfer energy storage plate 9 are electrically connected with a program main board of the touch module.

The above is merely a preferred embodiment of the present utility model, and the scope of the present utility model is not limited to the above embodiments, but any simple modification, equivalent variation and modification of the above embodiments according to the technical matters of the present utility model should be considered as the scope of the present utility model for those skilled in the art.

Claims (5)

1. The multifunctional experimental instrument for practical training of genetic engineering is characterized by comprising a shell, wherein a refrigeration module and a heating module are arranged in the shell, the refrigeration module comprises a first fan, a heat dissipation block, a refrigeration block and a refrigeration heat transfer energy storage sheet which are sequentially arranged from bottom to top, the first fan is detachably connected with the heat dissipation block, a fixing sheet is arranged on the lower part hoop of the refrigeration heat transfer energy storage sheet, the outer diameter of the fixing sheet is larger than the diameter of the first fan with the largest diameter, the side of the fixing sheet is detachably connected with the side of the heat dissipation block and a bottom plate of the shell at the same time, a bottom air outlet is formed in the shell right below the first fan, a refrigeration port for cooling a centrifuge tube or a freezing tube is formed in the shell right above the refrigeration heat transfer energy storage sheet, a temperature sensor is arranged on the refrigeration heat transfer energy storage sheet, a containing port which is arranged opposite to the refrigeration port and used for containing or freezing tube is arranged on the upper end face of the refrigeration heat transfer energy storage sheet, and the first fan discharges heat generated by the heat instrument in a convection mode; the heating module comprises an incubator, a second fan, a heating plate and a heating heat-transfer energy storage plate which are sequentially arranged from bottom to top, wherein the incubator is fixedly connected with a bottom plate of the shell, the second fan is detachably connected with the heating heat-transfer energy storage plate and used for transmitting heat of the heating plate into the incubator, the side of the heating heat-transfer energy storage plate is detachably connected with the upper end face of the incubator, a temperature sensor is arranged on the heating heat-transfer energy storage plate, a heating opening for heating a centrifuge tube or a freezing storage tube is formed in the shell right above the heating heat-transfer energy storage plate, a containing opening which is opposite to the heating opening and used for containing the centrifuge tube or the freezing storage tube is formed in the upper end face of the heating heat-transfer energy storage plate, and an air inlet is formed in the rear side wall of the shell; the refrigerating block, the first fan, the heating plate and the second fan are all electrically connected through wires and provided with a power supply.

2. The multifunctional experimental instrument for practical training of genetic engineering according to claim 1, wherein a first heat insulation sheet is arranged between the refrigeration heat transfer energy storage sheet and the shell right above the refrigeration heat transfer energy storage sheet, and a through hole opposite to the refrigeration port is formed in the first heat insulation sheet.

3. The multifunctional experimental instrument for practical training of genetic engineering according to claim 1, wherein a second heat insulation sheet is arranged between the heating heat transfer energy storage sheet and the shell right above the heating heat transfer energy storage sheet, and a through hole opposite to the refrigerating port is arranged on the second heat insulation sheet.

4. The multifunctional experimental instrument for practical training of genetic engineering according to claim 1, wherein a plurality of screw holes are formed in the circumferential side of the fixing piece, a plurality of hollow fixing columns are formed in the circumferential side wall of the radiating block, the screw holes are opposite to the hollow fixing columns, and the fixing piece is detachably connected with the hollow fixing columns through screws penetrating through the screw holes.

5. The multifunctional experimental instrument for practical training of genetic engineering according to claim 1, further comprising a touch module, wherein the touch module is used for setting and controlling the temperatures of the incubator, the heating plate and the refrigerating block, and the temperature sensors on the refrigerating heat transfer energy storage plate and the heating heat transfer energy storage plate are electrically connected with a program main board of the touch module.